Highlights
- Low-pH stress disrupted oxidative balance in M. japonicus, suppressing SOD and CAT activities while increasing MDA levels.
- Low-pH stress triggered 2705 DEGs in hepatopancreas linked to immunity, oxidative stress, and energy metabolism.
- CTSD, GLB1, and LGI4 are implicated in long-term immune adaptation to low pH.
- Key pathways—lysosome, Toll-like receptor, AMPK, and PPAR signaling—were activated under low pH stress.
- Hub genes such as NADH-GOGAT and MDHM were identified as central regulators of antioxidant defense and energy metabolism.
Abstract
Ocean acidification has emerged as a globally recognized environmental issue, posing a serious threat to marine ecosystems. To elucidate the adaptive mechanisms of Marsupenaeus japonicus under acidified conditions, both biochemical and transcriptomic analyses were performed following low-pH exposure. Biochemical assays revealed that low pH stress significantly SOD and CAT activities while markedly elevating MDA levels, indicating oxidative damage. T-AOC exhibited a transient rise followed by a sharp decline at later stages, suggesting initial activation and subsequent exhaustion of antioxidant defense. Transcriptomic profiling identified 2705 DEGs that were primarily enriched in pathways related to immune regulation, redox balance, apoptosis, and energy metabolism, including the lysosome, Toll-like receptor, and PPAR signaling pathways. Protein interaction analysis identified 9 hub genes, including NADH-GOGAT and MDHM, which may play key roles in antioxidant defense and metabolic regulation. The integration of enzyme activity and transcriptomic data indicates that acid stress initially induces oxidative imbalance, followed by compensatory activation of antioxidant and immune systems to restore cellular homeostasis. These findings provide comprehensive insights into the oxidative stress adaptation of M. japonicus and offer a genetic and physiological foundation for breeding acid-tolerant shrimp strains.
Hou Y., Liang C., Kizi D. D. R. & Liu J., 2025. Transcriptomic analysis of the hepatopancreas response to low-pH stress in kuruma shrimp (Marsupenaeus japonicus). Comparative Biochemistry and Physiology Part D: Genomics and Proteomics: 101667. doi: 10.1016/j.cbd.2025.101667. Article.
